Restricted accessLetterFirst published online 2011-10
Comment on “Behavior of Charged Particles in a Biological Cell Exposed to AC-DC Electromagnetic Fields” and on “Comparison Between Two Models for Interactions Between Electric and Magnetic Fields and Proteins in Cell Membranes”
Bauréus KochC.L., SommarinM., PerssonB.R., SalfordL.G., EberhardtJ.L.2003. Interaction between weak low frequency magnetic fields and cell membranes. Bioelectromagnetics, 24:395.
2.
EngstromS.1996. Dynamic properties of Lednev's parametric resonance mechanism. Bioelectromagnetics, 17:58.
3.
GaltS., SandblomJ., HamneriusY.1993. Theoretical study of the resonant behaviour of an ion confined to a potential well in a combination of AC and DC magnetic field. Bioelectromagnetics, 14:299.
4.
HalgamugeM.N., AbeyrathneC.D.2011. Behavior of charged particles in a biological cell exposed to AC-DC electromagnetic fields. Environ. Eng. Sci., 28:1.
5.
HalgamugeM.N., PerssontB.R.R., SalfordL.G., MendisP., EberhardtJ.2009. Comparison between two models for interactions between electric and magnetic fields and proteins in cell membranes. Environ. Eng. Sci., 26:1473.
6.
LiboffA.R.1985. Cyclotron resonance in membrane transport. ChiabreraA., NicoliniC., SchwanH.P.Interactions between Electromagnetic Fields and Cells. London: Plenum Press.
7.
LiboffA.R., McLeodB.R.1988. Kinetics of channelized membrane ions in magnetic fields. Bioelectromagnetics, 9:39.
8.
LednevV.V.1991. Possible mechanism for the influence of weak magnetic fields on biological systems. Bioelectromagnetics, 12:71.
9.
MillerC.2000. An overview of the potassium channel family. Genome Biol, 1:reviews004.
10.
NeherE., SakmannB.1992. The patch clamp technique. Sci. Am., 266:28.
11.
PanagopoulosD.J.2011. Analyzing the health impacts of modern telecommunications microwaves. BerhardtL.V.Advanes in Medicine and Biology, 17. New York: Nova Science Publishers.
12.
PanagopoulosD.J., MessiniN., KarabarbounisA., FilippetisA.L., MargaritisL.H.2000. A mechanism for action of oscillating electric fields on cells. Biochem. Biophys. Res. Commun., 272:634.
13.
PanagopoulosD.J., KarabarbounisA., MargaritisL.H. 2002. Mechanism for action of electromagnetic fields on cells. Biochem. Biophys. Res. Commun., 298:95.
14.
PanagopoulosD.J., MargaritisL.H.2008. Mobile telephony radiation effects on living organisms. HarperA.C., BuressR.V.Mobile Telephones: Networks, Applications and Performance. New York: Nova Science Publishers, 107.
15.
StuhmerW., ContiF., SuzukiH., WangX., NodaM., YahagiN., KuboH., ShosakuN.1989. Structural parts involved in activation and inactivation of the sodium channel. Nature, 339:597.
16.
TerlauH., StuhmerW.1998. Structure and function of voltage-gated ion channels. Naturwissenschaften, 85:437.
17.
TytgatJ., NakazawaK., GrossA., HessP.1993. Pursuing the voltage sensor of a voltage-gated mammalian potassium channel. J. Biol. Chem., 268:23777.
18.
ZhadinM.N.1998. Combined action of static and alternating magnetic fields on ion motion in a macromolecule: theoretical aspects. Bioelectromagnetics, 19:279.
